KR20100111477A - Automatic frequency selection method for a radio - Google Patents

Abstract

The present invention relates to a radio, and more particularly, to identify a frequency in which reception is poor during automatic tuning of a radio, and to exclude the broadcasting in advance, thereby preventing bad broadcasting from being tuned and providing a radio radio tuning service. The automatic tuning method. The present invention relates to automatic tuning of a radio receiver, which can perform more intelligent automatic tuning in a strong electric field, and in addition to radio broadcasting, TV, digital multimedia broadcasting (DMB) High Definition (HD) Radio (North America), and digital audio broadcasting (DAB). ) (Europe) An automatic frequency tuning method for radios that can be applied to both receptions.

Description

Automatic frequency selection method for a radio

The present invention relates to a radio, and more particularly, to identify a frequency that is poor in reception when radio is automatically tuned, and to exclude it from the station in advance. The present invention relates to a method for automatic tuning of radio frequencies.

In general, recent car audio and video systems include a key input unit, a display unit, an audio processor, an AM (Amplitude Modulation) / FM (Frequency Modulation) radio receiver, a TAPE processor, a CD (Compact Disk) processor, a video processor, a GPS processor, and a DMB processor. And a controller, a memory, and the like.

The control unit controls the overall operation of the in-vehicle audio and video system, and the memory stores a program to be used in the audio and video system, and provides data under control of the control unit.

The conventional radio automatic tuning function will be described below.

In a car audio and video system, an automatic tuning function is provided that simply selects and receives a broadcast by pressing a button when listening to AM or FM radio.

The conventional radio tuning function of the conventional radio evaluates the signal strength (RF input level), frequency accuracy, and noise level, and receives a broadcast by tuning a corresponding channel when a preset reference condition is satisfied. However, when the automatic tuning is performed by applying only these conditions, if the transmission tower is located in a dense strong electric field, even though the actual broadcasting is not provided, bad broadcasting may be automatically tuned by another broadcasting of the electric field, which is inconvenient for the user. I can feel it.

The present invention solves the above problems, the present invention relates to automatic tuning of the radio receiver can perform more intelligent automatic tuning in the electric field, and in addition to radio broadcasting, TV, DMB, HD Radio (North America), DAB ( Europe) It is an object of the present invention to provide a method for automatic frequency tuning of a radio that can be applied to both reception of a broadcast.

In addition, the present invention generates a strong electric field frequency list indicating the electric field strength of a specific electric field or more at the time of automatic tuning in the radio receiver, calculates the harmonic (harmonic) in the electric field frequency list to set a bad frequency list difficult to receive broadcasts and bad frequency It is an object of the present invention to provide a method for automatic frequency tuning of a radio that provides an improved automatic tuning function because the list is excluded during automatic tuning.

A method of the present invention for achieving the above object is a first step of determining the strong field frequency by scanning all the channels of the broadcast in the receiver in the automatic station to automatically select a channel when receiving the broadcast, and the harmonic from the strong field frequency A second step of generating a bad frequency list by calculating a step and a third step of receiving the broadcast by selecting the auto-tuned frequency if the frequency automatically tuned in the receiver does not correspond to the bad frequency list. do.

In addition, the bad frequency list is characterized by calculating the harmonics using the strong electric field frequency and generating the remaining frequencies as the bad frequency list excluding frequencies outside the magnetic frequency and the effective frequency range.

In addition, if there is only one receiver, the first step of identifying the strong electric field frequency and the second step of generating a bad frequency list are generated in advance, and in the case of two receivers, the strong electric field frequency is identified by one receiver. A first step and a second step of generating a bad frequency list are processed in the background, and at the same time, a third step of receiving a broadcast through a frequency automatically tuned to another receiver is characterized.

The present invention has an effect of automatically tuning a channel having a better reception sound quality than automatic tuning of a radio receiver, and can perform intelligent automatic tuning in a strong electric field.

In addition, the present invention has an effect that can be applied to all other broadcast signals, such as AV system, TV, DMB, HD Radio (North America), DAB (Europe) in addition to the radio.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted.

The present invention relates to intelligent radio frequency automatic tuning, which prevents bad frequencies from being tuned by interference waves between strong field signals. It also shows excellent performance for other broadcast reception such as TV, DMB and DAB.

1 is a flowchart illustrating an operation of automatic channel selection when a single tuner is provided according to an embodiment of the present invention.

First, in the case of one receiver in 500 steps, the control unit of the radio receiver scans all channels in advance. All channels are conducted by AM and FM broadcasts.

In operation 510, the result of scanning all channels is compared with the reference value of the strong electric field to determine a frequency indicating the strong electric field.

The present invention is intended to block the case where a bad broadcast is automatically tuned by another broadcast having a strong electric field but no actual broadcast and having a strong electric field.

The strong field reference value is higher as the dynamic range of the radio receiver is wider.

Steps 520 to 540 calculate harmonics using the frequency representing the strong electric field in the control unit. In the case of AM broadcasting, the second and third harmonics are calculated. The remaining frequencies are selected as the bad frequency list, and the previous bad frequency list is initialized to generate a newly calculated bad frequency list.

In the case of FM broadcasting, the third harmonic is calculated, and as a result of the calculation, the remaining frequencies except the magnetic frequency and the frequency outside the effective frequency range are selected as the bad frequency list, the previously stored bad list is initialized, and the newly calculated bad frequency list is reset. Create and store in memory. When applied to other broadcasts such as TV and DMB, only the second and third harmonics in the band are calculated.

In addition, the 3rd harmonic calculation of FM broadcasting calculates 2 * f1-f2 and uses only frequencies within the effective frequency in the bad frequency list.In the case of AM broadcasting, the harmonic calculates f1-f2 and 2 * f1-f2 within the effective frequency. Only frequency is used for bad lists. Where f1 is the magnetic frequency and f2 is the adjacent frequency.

In the above steps 500 to 540, when the radio has a single tuner, a bad frequency list is generated in advance, and the generation of the bad frequency list is performed at set intervals to update the bad frequency list.

On the other hand, when the user selects automatic tuning using the radio receiver in steps 550 to 560, the controller evaluates the signal strength, the accuracy of the frequency and the noise level in a preset manner to determine whether the corresponding frequency is a frequency suitable for the tuning. .

If the corresponding frequency is suitable for the station selection in steps 570 to 580, the controller determines whether it is not the bad frequency list generated in the above-described steps 500 to 540, and if included in the bad frequency list, excludes the frequency from the station and feeds back to the step 550. The channel quality of the new adjacent frequency is again determined.

In step 590 to 600, if the corresponding frequency is not included in the bad frequency list, the controller determines that the broadcast reception is a suitable frequency and tunes in.

When a strong signal in the nonlinear region is input when the actual broadcast signal is received, distortion occurs, and a third harmonic acts as a major obstacle in the distortion component, thereby causing problems even in automatic tuning.

According to the present invention, when a receiver (single tuner) has a single frequency, the entire frequency band is searched in advance before automatic tuning, harmonics are generated, and a bad frequency list is generated. Increase the quality of automatic tuning.

2 is a diagram illustrating an example of a strong electric field list according to an embodiment of the present invention.

2 shows a strong electric field list by grasping the electric field strength of the FM broadcast. The reference value of the electric field is 100 dBuV and a frequency having a higher electric field strength is designated as the electric field frequency. The strong electric field reference value is determined according to the dynamic range of the radio receiver, and the higher the dynamic range of the radio receiver is, the higher it is.

Referring to FIG. 2, the FM frequency and the electric field strength (dBuV) are shown as graphs, and in the case of the frequency 90.0, the electric field (dBuV) strength of 104.98 exceeded the strong electric field reference value 100, and other 97.4 MHz, 101.8 MHz, 103.9 MHz, and 106.1 MHz. In the case of 106.6 MHz, it corresponds to the strong electric field frequency, indicating the strength of the electric field (dBuV) of 105.75, 102.55, 107.44, 112.03, and 103.41 dBuV exceeding the strong field reference value of 100 (dBuV).

3 is a diagram illustrating an example of calculating a harmonic and generating a bad frequency list using the strong field frequency list calculated in FIG. 2.

In the figure, the 3rd harmonic of the FM broadcast is calculated by applying 2 * f1-f2, and from the calculation result, the remaining frequencies excluding self frequencies and excluding frequencies having a value other than the effective frequency range of 87.5 MHz to 108 MHz are listed. An example of the creation is shown.

f1 is the magnetic frequency and f2 is the adjacent frequency. When the third harmonic is calculated by applying 2 * f1-f2, the result as shown in FIG. 3 can be obtained. In the results of FIG. 3, 104.8, 93.0, 90.9, 88.7, 88.2, 106.2, 101.7, 101.2, 105.6, and 107.1 are selected as the bad frequency list except for the frequencies other than the above-mentioned magnetic frequency and the effective frequency. .

4 is a flowchart illustrating the operation of automatic channel selection in the case of having two receivers (dual tuners) according to an embodiment of the present invention.

Unlike the case of FIG. 1, in case of two tuners, one receiver is used for broadcast reception, and a bad frequency list is created in the background by another receiver and applied to real-time automatic tuning.

The overall operation is the same for either a single tuner or a dual tuner.

In step 700, when the user selects automatic tuning of the radio, tuner 2 (not shown) scans all channels in the background. In FM broadcasting, the effective frequency range is 87.5MHz ~ 108MHz.

In step 710, the frequency indicating the strong electric field is determined according to the strong electric field reference value determined in the dynamic range of the radio receiver. The strong field reference value is higher as the dynamic range of the radio receiver is wider.

Steps 720 to 740 calculate harmonics in the control unit. In the case of AM broadcasting, the second and third harmonics are calculated, and the remaining frequencies other than the frequencies other than the magnetic frequency and the effective frequency range are selected as the bad frequency list. The previous bad list is initialized.

In the case of FM broadcasting, as described in FIG. Create a list and store it in memory. When applied to other broadcasts such as TV and DMB, only the second and third harmonics in the band are calculated.

In the steps 700 to 740 described above, in case of two receivers (dual tuners), the receiver 2 (not shown) generates a bad frequency list in the background, and this generation operation is performed at set intervals to update the bad frequency list.

On the other hand, step 800 operates in receiver 1 (not shown). When the user selects automatic station selection using a radio receiver, the control unit evaluates the signal strength, the accuracy of the frequency, and the noise level in a preset manner. Determine if the frequency is suitable for the station.

If the corresponding frequency is suitable for tuning in steps 810 to 840, the controller determines whether it is not in the bad frequency list generated in the above steps 700 to 740, and if included in the bad frequency, excludes the frequency from the tuning and feeds back to step 800. Again find out the channel quality of the new adjacent frequency.

In step 840, if the corresponding frequency is not included in the bad frequency list, the controller proceeds to step 850 and determines that the frequency is a frequency suitable for broadcast reception and tunes in.

As described above, the present invention searches for all broadcast bands, generates a strong electric field frequency list, generates a bad frequency list for generating interference waves between the strong electric field signals, and excludes them during automatic tuning. Indicates.

So far, the configuration and operation of the embodiment of the present invention have been described. The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims but also by the equivalents of the claims.

1 is a flowchart illustrating the operation of automatic tuning of a radio having a single tuner according to an embodiment of the present invention.

2 shows an example of a strong field frequency according to an embodiment of the present invention.

3 is a diagram illustrating an example of calculating a harmonic and generating a bad frequency list using the strong field frequency list calculated in FIG.

4 is a flowchart illustrating an operation of automatic tuning of a radio having two receivers (dual tuners) according to an embodiment of the present invention.

Claims (7)

In the automatic tuning to automatically select a channel when receiving a broadcast, A first step of detecting a strong electric field frequency by scanning all channels of the broadcast in a receiver; A second step of generating a harmonic frequency list by calculating harmonics from the strong electric field frequency; And And if the frequency automatically tuned by the receiver does not correspond to the bad frequency list, selecting the frequency automatically tuned to receive the broadcast. The method of claim 1, The first step is a radio frequency automatic tuning method characterized in that if the electric field strength of the frequency is equal to or more than the strong field reference value determined by the dynamic range. The method of claim 1, The faulty frequency list calculates harmonics using the strong electric field frequency and generates the remaining frequencies except the frequencies other than the magnetic frequency and the effective frequency range as the faulty frequency list. . The method of claim 1, The first step of determining the strong electric field frequency when the receiver is one, and the second step of generating the bad frequency list is generated in advance. The method of claim 1, In the case of two receivers, the first step of identifying the strong electric field frequency with one receiver and the second step of generating the bad frequency list are processed in the background, and at the same time, the frequency automatically tuned to the other receiver. And a third step of receiving a broadcast. The method of claim 1, The broadcast is a method for automatic frequency tuning of a radio, characterized in that the radio, TV, DMB, DAB, HD Radio broadcast. The method of claim 1, And the bad frequency list is generated and provided at set intervals.

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